EP1621409A2 - Arrangement d'illumination pour véhicule utilitaire, especialement pour une remorque, et raccord de câbles pour cela - Google Patents

Arrangement d'illumination pour véhicule utilitaire, especialement pour une remorque, et raccord de câbles pour cela Download PDF

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Publication number
EP1621409A2
EP1621409A2 EP05012714A EP05012714A EP1621409A2 EP 1621409 A2 EP1621409 A2 EP 1621409A2 EP 05012714 A EP05012714 A EP 05012714A EP 05012714 A EP05012714 A EP 05012714A EP 1621409 A2 EP1621409 A2 EP 1621409A2
Authority
EP
European Patent Office
Prior art keywords
cable
cables
connection
wires
arrangement according
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
EP05012714A
Other languages
German (de)
English (en)
Other versions
EP1621409A3 (fr
Inventor
Josef Koch
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Kompled Lightsystems GmbH
Original Assignee
Schmitz Gotha Fahrzeugwerke GmbH
Kompled GmbH and Co KG
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Schmitz Gotha Fahrzeugwerke GmbH, Kompled GmbH and Co KG filed Critical Schmitz Gotha Fahrzeugwerke GmbH
Publication of EP1621409A2 publication Critical patent/EP1621409A2/fr
Publication of EP1621409A3 publication Critical patent/EP1621409A3/fr
Withdrawn legal-status Critical Current

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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01RELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
    • H01R13/00Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00
    • H01R13/02Contact members
    • H01R13/03Contact members characterised by the material, e.g. plating, or coating materials
    • H01R13/035Plated dielectric material
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60QARRANGEMENT OF SIGNALLING OR LIGHTING DEVICES, THE MOUNTING OR SUPPORTING THEREOF OR CIRCUITS THEREFOR, FOR VEHICLES IN GENERAL
    • B60Q1/00Arrangement of optical signalling or lighting devices, the mounting or supporting thereof or circuits therefor
    • B60Q1/26Arrangement of optical signalling or lighting devices, the mounting or supporting thereof or circuits therefor the devices being primarily intended to indicate the vehicle, or parts thereof, or to give signals, to other traffic
    • B60Q1/30Arrangement of optical signalling or lighting devices, the mounting or supporting thereof or circuits therefor the devices being primarily intended to indicate the vehicle, or parts thereof, or to give signals, to other traffic for indicating rear of vehicle, e.g. by means of reflecting surfaces
    • B60Q1/305Indicating devices for towed vehicles
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01RELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
    • H01R12/00Structural associations of a plurality of mutually-insulated electrical connecting elements, specially adapted for printed circuits, e.g. printed circuit boards [PCB], flat or ribbon cables, or like generally planar structures, e.g. terminal strips, terminal blocks; Coupling devices specially adapted for printed circuits, flat or ribbon cables, or like generally planar structures; Terminals specially adapted for contact with, or insertion into, printed circuits, flat or ribbon cables, or like generally planar structures
    • H01R12/50Fixed connections
    • H01R12/59Fixed connections for flexible printed circuits, flat or ribbon cables or like structures
    • H01R12/61Fixed connections for flexible printed circuits, flat or ribbon cables or like structures connecting to flexible printed circuits, flat or ribbon cables or like structures
    • H01R12/613Fixed connections for flexible printed circuits, flat or ribbon cables or like structures connecting to flexible printed circuits, flat or ribbon cables or like structures by means of interconnecting elements
    • H01R12/616Fixed connections for flexible printed circuits, flat or ribbon cables or like structures connecting to flexible printed circuits, flat or ribbon cables or like structures by means of interconnecting elements having contacts penetrating insulation for making contact with conductors, e.g. needle points
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01RELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
    • H01R4/00Electrically-conductive connections between two or more conductive members in direct contact, i.e. touching one another; Means for effecting or maintaining such contact; Electrically-conductive connections having two or more spaced connecting locations for conductors and using contact members penetrating insulation
    • H01R4/24Connections using contact members penetrating or cutting insulation or cable strands
    • H01R4/2404Connections using contact members penetrating or cutting insulation or cable strands the contact members having teeth, prongs, pins or needles penetrating the insulation
    • H01R4/2408Connections using contact members penetrating or cutting insulation or cable strands the contact members having teeth, prongs, pins or needles penetrating the insulation actuated by clamping screws

Definitions

  • the invention relates to a lighting arrangement of a load vehicle, in particular a trailer, and cable connector for this purpose.
  • Lighting arrangements on trucks, especially on trailers often have next to a tail light assembly which may include taillights, brake lights, license plate lights, and typically still reversing lights and rear fog lights, even more lights, especially at corners and along long sides as marker lights and lane lights.
  • control and power supply typically occurs via a multi-pole detachable electrical connection in the direction of travel to a towing vehicle.
  • a typical cable guide provides for the use of a multi-core main cable harness, which separates in the tail light assembly in several sub-strands to several light housings and from which two-core cable along the two-sided longitudinal sides of the vehicle for connection of the side marker lights in the direction of travel are led forward.
  • the Haufclustrang can lead to a distributor housing in the rear area, from which separate multi-core cable to the various light housings depart.
  • the present invention has for its object to provide an advantageous such lighting arrangement, in particular for trailers, and cable connector for this purpose.
  • connection of the other consumers is done by a connection cable, which has more than the required for the other consumers separate wires.
  • the further consumers are functionally coupled to at least one lighting function of the tail lamp arrangement and electrically connected to the wires assigned to this lighting function.
  • connection of other consumers to the connection cable by means of the insulation of the cable penetrating contact tips, contact cutting or the like.
  • Contact devices of this type are known per se from the electrical connection technology in large numbers. Such contact devices can be made waterproof with little effort.
  • the connecting cable advantageously has a non-rotationally symmetrical cross section a plurality of separate wires in a defined relative position to the cross-sectional shape.
  • connection cable advantageously contains all the control of the independent lighting functions taillight, brake light, both turn signals and reversing lights and / or rear fog light required separate wires, with the allocation of the connecting cable in two laterally spaced partially guided subcable this laterally spaced apart subcable this lighting functions partially on the cores of the two sub-cables can be distributed.
  • a license plate light is usually operated together with the taillight function and can therefore be fed from the same cable cores as these.
  • For separate but simultaneously operated lights, such as right and left taillight and license plate lights or right and left brake light can advantageously be provided only one common wire in the connecting cable.
  • the connecting cable or the sub-cables are advantageously continuous over at least 80%, in particular at least 90% of the length of the vehicle between the front-side control device and the rear lamp arrangement.
  • connection cable can be prepared for installation with front and rear connections as a mounting assembly. Particularly advantageous is a preferred arrangement in which the connection cable is also connected to the tail lamp assembly and / or to a front-side control device on the insulation penetrating contact tips, contact cutting, etc. It can then be advantageously used as a connecting cable separated from a strand in the length required in each individual case length of cable and held for different vehicle geometries a uniform cable cross-section.
  • the connection cable can be connected in another advantageous embodiment with front-side control device or with a lamp housing of the taillight assembly, in particular prefabricated with soldered cable cores as a mounting assembly.
  • connection cable can then have at its the vrebundenen control device or the connected luminaire housing remote end for easy cable entry free cable end without connecting parts and connected at the free end via contact devices with the cable insulation penetrating tips or cutting to further cable or to the luminaire housing.
  • connection of other consumers can be done with the interposition of other cable sections or directly.
  • connection devices In a connection variant of the other consumers via further cable sections these are connected via contact devices with contact tips to one or more wires of the multi-core connection cable.
  • the other cable sections can be of the same type of cable as the connecting cable, so that only one type of cable is used in total.
  • the contact devices can then in particular also produce connections between all the wires of the connection cable and all the corresponding wires of the other cable sections and thereby be universally used regardless of the type of other consumers.
  • the other cable sections may be of different cable type than the connecting cable and in particular have a smaller number of wires.
  • the further cable sections can each lead to a single or a plurality of further consumers connected along the cable section at a distance.
  • connection points can be embodied as T-branches with a further cable section leading away from the connection cable on one side or as cable intersections of the connection cable with two further cable sections discharging. In the latter case are advantageously the other two Cable sections running continuously as a cable continuously and also contacted via contact tips, etc. with the connection device.
  • the further consumers are advantageously equipped with an integrated contact device or mechanically and electrically connected to a contact device.
  • the contact device can also contact more wires of the connecting cable than required for the respective consumer, so that the same embodiment of a contact device can be used universally for several or all kinds of other consumers.
  • Further consumers can be located in particular at corners and / or along long sides marker lights, lane lights or clearance lights.
  • other consumers but also other electrical units that have no lighting function into consideration, in particular sensors for monitoring or actuators to control operating conditions of individual components of the truck, such as components of a hydraulic or pneumatic system or related components such as relays or the like.
  • sensors for monitoring or actuators to control operating conditions of individual components of the truck such as components of a hydraulic or pneumatic system or related components such as relays or the like.
  • several different consumers via one or more common wires of the connection cable by means of coded, in particular digitally coded signals can be individually addressed.
  • the other electrical units are connected in a preferred embodiment but via a separate electrical line system with a towing vehicle. Whendessanorndung is advantageously for each independent lighting function a separate, also separately protected against overcurrent circuit exists.
  • Particularly powerful Lighting function groups such as the group of taillights, license plate lights, clearance lights, lane lights and side marker lights can be divided in a conventional manner in simultaneously switched sub-groups with their own circuits.
  • the multiple circuits preferably have a common electrical ground as a reference potential and a common ground line.
  • the front-side power source of a trailer can be in the simplest case, a plug connection to the towing vehicle, via which the electrical power supply and possibly all control signals with direct assignment of the individual plug contacts to the individual wires of the connection cable.
  • the front power source of a trailer may include a controller having its own electrical and electronic circuits, such as power splitters, fuses, monitors, switches, voltage converters, etc.
  • a trailer can also contain its own energy source in the form of a battery. The charging of such a rechargeable battery can take place via the feed line of the towing vehicle, via a trailer-side generator or via photovoltaic elements.
  • the control device can also be designed for wireless signal connection to a towing vehicle. The control device can be shared for the lighting arrangement and any other electrical units present in a unitary housing.
  • a lighting arrangement according to the invention can, according to a first advantageous embodiment, a central connection cable spaced from both opposite longitudinal sides, preferably at least 10%, in particular at least 20% of the vehicle width, between the front power source and the rear lighting arrangement with further cable sections in the course of the connection cable have other consumers.
  • Such an arrangement has a particularly small length of the connecting cable, which can be performed particularly protected. In length-adjustable trailers then advantageously only the central connection cable needs to be guided following the change in length.
  • Further consumers may preferably be connected via transverse to the direction of the connection cable branching off further cable sections.
  • two partial connection cables between the front-side power source and the rear-side lighting arrangement are provided along both longitudinal sides of the load vehicle. Lateral marker lights can be connected directly to one of the two sub-connection cables via the mentioned contact devices without interposing further cable sections.
  • the two sub-connection cables are contacted at their own connection points with the rear light assembly.
  • the two sub-connection cables can each supply parts of the tail lamp arrangement.
  • both connection cables are of identical cable type.
  • at least a portion of the wires of the two connecting cables, preferably all wires are assigned with the same functions and within the tail lamp assembly can then be contacted with identical functions cores of the two connecting cables and form self-contained conductor loops.
  • a supply of the connected consumers can then be made from two sides. Even with an interruption of the conductor loop of a through-contacted in this way by the tail light assembly wire at any point of one of the two connection cables or within the tail light assembly is given unchanged the function of all connected consumers.
  • monitoring devices are provided in the front control device, which, preferably at regular intervals, check the integrity of such closed conductor loops and produce a corresponding error signal when detected loop interruption, which is advantageously transmitted in a trailer as a load vehicle to the towing vehicle and displayed there acoustically or visually.
  • the fault-tolerant mode of operation due to the closed conductor loops with two connecting cables of the same functional assignment of the wires of both connection cables can partly be achieved even with a central cable routing with two identical partial connection cables or with a connection cable with twice the number of cores.
  • the arrangement with two guided along the two vehicle longitudinal sides connecting cables is particularly advantageous by the direct connectivity of the side marker lights.
  • Two sub-connection cables may also be laterally spaced from each other and from the side marker lights, e.g. B. at least 10%, in particular at least 20% of the vehicle width, be guided, for example, along side members of a vehicle chassis.
  • connection cable may also be laid alternately between opposite longitudinal sides of the load vehicle in meandering form and contact consumers in continuous uninterrupted form on both longitudinal sides directly.
  • the different versions of the course of the connecting cable and possibly the other cable sections can also occur combined with each other.
  • only one connecting cable with wires for control and power supply of all independent lighting functions can be used without interruption Cable connection of the rear light assembly to be performed.
  • Further cable connections of the tail lamp arrangement can be supplied electrically via intermediate cables, which are connected to the connection cable or an intermediate cable, wherein the connection of the intermediate cables to the connection cable preferably takes place again via contact tips without interruption of the connection cable.
  • the lamp housing can be prepared with such intermediate cables equipped as connecting cables, in particular with soldered cable wires in the LeuchtenanssenenVerteilhaft note are at least some, preferably all of the individual lights with light-emitting diodes Equipped with light sources. This can be sufficient for the same light output, a lower operating current than incandescent lamps, which in turn advantageously the line cross section of the individual wires can be reduced.
  • the conductor cross section of the wires is advantageously in the range of 0.5 mm 2 to 1.25 mm 2 , preferably 1 mm 2 .
  • an illumination arrangement of a trailer is sketched as a load vehicle in an oblique view with a rectangular x, y, z coordinate system.
  • the lighting arrangement contains in particular as a light-emitting electrical load a rear-side tail lamp assembly HA, at the rear corners of the vehicle Lane keepers SL and along the sides several arranged in rows side marker lights ML and possibly additionally front and / or rear clearance lights UL, which also arranged elevated high especially in case of box bodies could be.
  • the tail lamp assembly may include in a conventional manner taillights HL, right and left brake lights BL, reversing lights RL, rear fog lights NL, a license plate lights ZL and left turn signals FL and right turn signals FR.
  • taillights HL, license plate lights ZL, clearance lights UL, Lane Keeping Lights SL and marker lights ML are connected together in operation and in a jointly secured circuit.
  • all luminaires are formed by light-emitting diode groups.
  • connection cables are multi-core.
  • At least some, preferably all, of the marker lights ML are connected to the partial connecting cables VR, VL guided along the vehicle longitudinal sides, without interrupting the connecting cables.
  • the single ones Marker lamps, which are spaced apart along the connecting cable advantageously have contact devices for this purpose, which penetrate the insulation of the connecting cable with contact tips or contact blades and in each case contact a single core.
  • Such contact devices are known per se and in use and therefore not described in detail at this point.
  • the cables have a position of the individual wires defined within the non-rotationally symmetrical cable cross section and the contact devices correspondingly defined positions of contact points or contact cutting.
  • connection cable VL, VR contain other wires for the separate control of lighting functions of the tail lamp assembly, in particular the brake lights, the flashing lights, the reversing lights and rear fog lights and possibly other electrical consumers.
  • connection cable can serve as ground common conductor lying on common reference potential for several or all electrical consumers of the lighting arrangement.
  • the front clearance lights UL are preferably also connected to the connection cable without interrupting these or individual wires thereof, so that the connecting cable sections VLL and VQL or VLR and VQR extending at least predominantly longitudinally in the x-direction or transversely in the y-direction respectively from the control device SE to the rear lights arrangement continuous cable strands form.
  • the connection cable sections may be interrupted in the clearance lights UL and the transverse sections VQL and VQR, respectively, may be electrically connected to the longitudinal-side sections VLL and VLR, respectively, via connection arrangements.
  • connection cable VL, VR is advantageously again on the cable insulation penetrating contacts in the form of tips, cutting, etc., at such connection points preferably contacting all the wires of the connection cable within a single contact device and an electrical connection individual Cores is made with associated different modules or lighting sources of the taillight assembly within the same.
  • a connection section AK of a cable is provided on the tail lamp arrangement, which is electrically connected via a coupling KK as a connection point with the part connecting cable VR or VL leading back from the control device (FIG. 3).
  • the connection cable is preferably soldered in the tail light assembly with its individual wires.
  • the multiple functions of the tail lamp assembly may be divided between the two sub-connection cables, so that z. B. in addition to a common ground wire and a common wire for marker lights, clearance lights, track lights, license plate lights and taillights the left part-connection cable more wires for the turn signal left and a reversing light and the right sub-connection cable VR further wires for the turn signal on the right and a rear fog lamp contains.
  • cables with five wires per sub-connection cable are sufficient.
  • Other wires in the connection cables for other functions and / or a different function assignment to the individual cables are possible.
  • connection cables are assigned the same functions as wires in the other connection cable and the wires of the same function of both connection cables via conductive connections in the rear light assembly are electrically connected to each other and closed to a conductor loop.
  • this can be done without increasing the number of wires of the connection cable z. B. for the ground wires and for the taillights and the brake lights associated wires of the two connecting cables are made.
  • a separate wire is provided for each of the intended functions of the tail lamp assembly in each of the two connecting cables and all the wires of the same function in the two connecting cables are closed via the tail lamp arrangement as conductor loops to ring lines, which in the example with only two other wires, ie in total seven wires of the connection cable is reachable.
  • connection of corresponding wires of the two connection cables to form closed conductor loops has the particular advantage that even after interruption of such a conductor loop at any point, for. B. functional failure of a contact of the contact devices, the function of the associated lighting device of the arrangement is fully maintained, as applied to both sides of the interruption the same potential.
  • the controller may further include fuses, controls, indicators.
  • the fuses can be provided in short-circuit proof, non-destructive electronic version.
  • the control device may have signal devices FE for wireless signal exchange with the towing vehicle, so that while maintaining the conventional plug connections between towing vehicle and trailer by wireless, preferably digital Signal exchange the functionality of the electrical system of the trailer can be greatly expanded.
  • the part of the trailer its own electrical energy source, in particular in the form of a repeatedly rechargeable battery BA, by means of which parts of the electrical system can be operated even when parked and detached from the tractor trailer.
  • the participating lighting devices can also be operated with reduced power.
  • a charge of the battery can z. B. when connected to a towing vehicle via the electrical connector or via trailer-side sources such as dynamos or photovoltaic panels.
  • wires of the two connection cable can advantageously be provided in addition in the control device by means of which at least one, preferably all of the conductor loops can be checked for continuity by a test signal is applied to the conductor loop.
  • a test signal may be a DC or AC signal.
  • the coupling of the test signal in a conductor loop is z. B. via a test switch PS, which also interrupts the connection of a wire to the connector for the test period.
  • test switch PS are shown switched for one of the conductor loops.
  • the test duration can be kept so short, for example in the range of milliseconds, that even with active lighting no interruption is perceptible.
  • the test switches are preferably designed as electronic semiconductor switches.
  • the cores of the two connecting cables are electrically connected through the tail lamp arrangement to form the closed conductor loops.
  • Such electrical connections can be formed in a first embodiment by a substantially over the entire length of the tail lamp assembly in the y-direction continuous multi-wire conductor arrangement, in particular a flat cable, wherein the individual lighting modules of the lighting arrangement are contacted with the respective associated conductors of the conductor arrangement, preferably without interruption of the conductors, for example, again via contact cutting, which penetrate an insulation of the conductor arrangement.
  • the multicore conductor arrangement may be formed as a rail with a plurality of conductor structures in the longitudinal direction, to which the individual modules, for. B. can be connected by means of multipolar plug, clip, terminal or spring contact devices.
  • the conductor arrangement may be formed by a plurality of juxtaposed modules in the y-direction, each having at the mutually facing edges of adjacent modules corresponding contact arrangements to the plurality of wires of the conductor arrangement and a plurality of tracks over the course of the modules between contact arrangements of the same module at opposite edges carry out.
  • the modules may advantageously be at least partially provided by different lighting functions serving modules themselves and / or, in particular be formed in gaps between adjacent modules by bridging modules without lighting function.
  • the separate modules may be mechanically connected on a common carrier and contacted via multi-core electrical connections.
  • Fig. 3 for the ladder assembly in the tail lamp assembly, the variant is sketched with a longitudinally y of the tail lamp assembly continuous multi-core cable FKH, which extends with sections AK on the opposite ends HER, HEL the elongated tail lamp assembly HA addition and deflected parallel to the longitudinal sides can be.
  • the connection sections may also be independent cable sections, which are electrically connected to the cable FKH.
  • the over the ends HEL, HER projecting cable sections AK are electrically contacted with the sub-connection cables VL and VR via couplings KK and preferably also mechanically connected.
  • the various lighting modules are contacted with the cores of the cable FKH assigned to their respective function.
  • the cable FKH can at the same time partly serve as a mechanical connection of the individual modules, for example in a module assembly prior to attachment to a carrier, for. B. a cross-beam at the rear of the vehicle or a mechanical intermediate carrier.
  • the connection cables AK can be of the same type of cable, in particular with identical cross section as the connection cable VL, VR or different from these.
  • Spacer modules DM without illumination function can be present between spaced-apart illumination modules.
  • the wiring in the tail lamp assembly HA is outlined in the variant in which no or not all of the wires of the sub-connection cable VR, VL are connected through the rear light assembly through.
  • the variant is shown in which corresponding contact arrangements KAi, KBi are present in opposite directions in the longitudinal direction y of the taillight arrangement edges of the individual lighting modules.
  • Each module including the bridging modules UM used for distance bridging, has a first contact arrangement KAi or a second contact arrangement KBi complementary to the first complementary contact arrangement KBi in at least one, preferably two y-direction, which make electrical connections with the contact arrangements of adjacent modules ,
  • a mechanical connection of adjacent modules may additionally be provided or structurally combined with the contact arrangements.
  • Peripheral connection arrangements HVL, HVR have either a first contact arrangement KVL or a second contact arrangement KVR and a device for contacting each of the partial connection cables VL, VR.
  • connection arrangement HVL or its contact arrangement KVL immediately adjacent illumination module FL has a connection arrangement HVL facing contact arrangement KB1, which has a counter contact to each contact of the contact arrangement KVL, although only two of these contacts are required for the illumination function assigned to this lighting module.
  • the lighting module FL also has on its facing away from the connection arrangement HVL and the longitudinal direction y following illumination module HL edge facing a contact arrangement KA1, which is contacted with the contact arrangement KB2 of the following illumination module HL and via which the following illumination module and longitudinally further away from the connection arrangement lighting modules BL, RL, ZL the tail lamp assembly are powered.
  • the contact arrangement KA1 at least for the wires, which serve for electrical control or power supply of the subsequent modules, depending on a contact and the contact arrangement KB2 of the following lighting module on the corresponding mating contacts.
  • the contacts of the contact arrangement KA1 are connected to the corresponding contacts of the contact arrangement KB1 of the same lighting module thereon.
  • the continuation of the electrical connections to subsequent lighting modules can be designed accordingly, wherein the number of contacts of the contact arrangements gradually decrease and the last lighting modules of a supply chain can have a contact arrangement only at one edge.
  • the number of contacts at the longitudinally opposite edges disposed contact arrangements is the same size at some, preferably on all lighting modules.
  • the contacts of the contact assemblies KAi, KBi provided on opposite edges of the same module are preferably electrically connected in pairs.
  • the modules are grouped with different lighting functions in a variable order and / or identical modules are used for the same lighting functions left and right.
  • the number of wires can be reduced in not connected to closed conductor loops in the conductor arrangement and the connection cables on, for example, five wires, wherein z. B.
  • a distance module AM can be provided, which has no electrical function and causes no continuation of printed conductors. But it can also be closed by the distance module AM through the wires and conductors occupied on the left and right with identical functions. It may also be provided only a single side-lit license plate light. As lighting modules of the rear assembly are in Fig. 3 and Fig.
  • Fig. 4 tail lights HL left and right, brake lights BL left and right, left turn signal FL and turn signals FR, rear fog light NL right, reverse light RL left and in Fig. 3 a central, in Fig. 4 provided two license plate lighting modules ZL. It is also possible to combine several illumination functions on one module, but in this case be controlled independently of each other via the individual wires or printed conductors.
  • VR these connection cables have a number of wires, which the variant with closed conductor loops, z. B. seven wires, as in the example of FIG. 3, corresponds, in which case individual wires in the sub-connecting cables exercise no function, eg. B. a wire for turn signals right in the left connection cable.
  • connection arrangements HVL, HVR which are contacted in the direction of travel x by the tail lamp arrangement spaced apart from the connection cables VL or VR.
  • the cable FKH the tail lamp assembly can only reach up to marginal connection arrangements.
  • a through the tail light assembly continuous connection of several or all wires of the connection cable VR, VL can also be done alone via contact arrangements of adjacent modules.
  • the internal line arrangement of the rear lighting arrangement can also have non-continuous electrical connections as in FIG. 4 multi-core cables of the type of FIG. 3 from both sides.
  • connection cable connecting cables more than the required five wires, in particular, for example, seven wires, which can be used for different arrangements same cable, same connection arrangements, same lighting modules, which simplifies storage and despite then unused cable wires, contacts, etc. can lead to cost savings.
  • a plurality of illumination functions can be realized on a common carrier module, whereby the number of contact arrangements can be reduced.
  • the respective carrier modules are then connected to more than two wires of the electrical conductor arrangement.
  • connection lines VL, VR are in this example opposite the left and the right edge of the vehicle spaced inward to the vehicle center offset and guided, for example, along side rails of a trailer chassis.
  • Lateral marker lights ML lying in the longitudinal direction x between the control device SE and the rear light arrangement HAL, HAR are contacted with them via T branches TK and individual cable sections MK, which may have fewer wires than the connecting lines, wherein the connecting cables at the T branches do not are interrupted.
  • the connection lines VL, VR can be limited to five wires as in FIG. 5, but preferably have at least seven wires each, a full wire set for all independent lighting functions.
  • a single central connection cable VZ is provided at the vehicle center, to which side marker lights via own cable sections MK and T-branches or as shown cable crossover couplings KR are connected, again the connection cable is uninterrupted at such junctions.
  • Several side marker lights ML can be fed via a single cable section MK.
  • the central connection cable VZ can also be guided laterally offset from the vehicle center, in particular also along a longitudinal member or along an outer side of the vehicle.
  • the connection cable may be connected to a contiguous taillight arrangement centrally or on an outside.
  • a guide of a single connection cable VM is meandering between opposite longitudinal sides of the vehicle outlined, in which the marker lights both sides are directly connected to the single connection cable.
  • Fig. 8 shows a preferred embodiment of a cable guide with a guided near the center of the vehicle connection cable VZ8 between a front Control device SE and a three-part tail light assembly.
  • the tail light assembly has separate luminaire arrangements LAL, LAM and LAR in three separate housings, wherein z. B. in the left light assembly LAL the lighting functions left rear light, left brake light, left turn signal and reversing lights, in the right light assembly LAR lighting functions right taillight, right brake light, right turn signal and rear fog light and in the middle lamp assembly LAM a license plate lights, a middle brake light and An additional hazard warning light can be provided.
  • the lighting arrangement includes in addition to the rear lamp assembly turn on the front of the trailer outline lights UL, along both sides lateral marker lights ML and the rear area on both sides Lane Keeping Lights SL.
  • the clearance lights UL and the side marker lights ML are connected via cable sections MK with respect to the central connection cable VZ8 reduced wire count, preferably in two-wire version, and couplings KUR to the central connection cable.
  • the couplings KUR preferably only contact the conductors required for the supply of the clearance lights or marker lights in the central connection cable VZ8.
  • the couplings KUR form crossing couplings in the sense that the couplings are placed on a continuous connecting cable and the connected cable sections MK are also continuous and lead away in two directions.
  • the cable guide in the couplings themselves can, as indicated in Fig. 8, advantageously show a parallel course of the connecting cable and the continuous cable sections MK.
  • the clearance lights UL and the side marker lights ML are each connected in pairs to a cable section MK and substantially symmetrical with respect to the vehicle center longitudinal plane arranged.
  • the clearance lights UL and the marker lights ML are connected to the cable ends of the cable sections MK.
  • the central connection cable VZ8 contains all the wires required for the control, in particular the analogue control and supply of the entire lighting arrangement comprising tail lamp arrangement LAL, LAM, LAR, clearance lights UL, marking lights ML and tracking lights SL.
  • the central connection cable VZ8 is laterally deflected in the rear area and continued uninterrupted for connection to the right light assembly LAR.
  • a cable KAL which is preferably constructed identically to the connection cable VZ8, is connected to the connection cable VZ8 with a unique wire assignment via a cable coupling KU81.
  • the cable KAL leads to the left lamp arrangement LAL.
  • the middle luminaire arrangement LAM is connected via a further cable coupling KU82 and a cable KAM, wherein in the case of the mentioned multiple illumination function in the central luminaire arrangement LAM the cable KAM is advantageously again constructed identically to the central connection cable VZ8 and the cable KAL and the coupling KK82 causes a unique wire assignment of the interconnected cables.
  • Lane keepers SL are connected via further couplings and cable sections MK to the cable leading to the left and right lamp assemblies LAL, LAR, these further couplings are advantageously of the same type KUR as the crossing couplings for pairwise connection of the side marker lights and the clearance lights, but here Branch couplings are executed with only one wegassociatedden cable section MK.
  • continuous connection cable VZ8 can advantageously be provided on the lamp assembly LAR a connection cable section which is connected with a cable coupling to the connection cable.
  • the cables KAL and KAM advantageously each have the complete Adersatz the central Connection cable on and are preferably of identical cable type as the central connection cable VZ8. This allows the use of always the same cables and couplings.
  • the cable connections of the individual luminaire arrangements can advantageously also be made the same regardless of the illumination functions contained in the luminaire arrangements. In the entire wiring system for the lighting arrangement so only two different types of cables and two different types of coupling occur.
  • Fig. 8 is connected as a further component of the electrical equipment of a trailer still connected via a separate connection cable KV with the control device SE distributor VF, via which, for example, electrical actuators and sensors for driving, such.
  • B. pneumatic valves, position sensors movable parts, etc. can be controlled.
  • a cable system is outlined in which the electrical connection between the front control device SE and the rear-side rear light assembly of a trailer in the direction of travel x is given by a single connection cable VK9, which like the central connection cable VZ8 of FIG. 8 cores for selective control and supply of all the different lighting functions.
  • the connecting cable VK9 is offset from the central longitudinal plane of the trailer in the y-direction, but at the same time also spaced from the left longitudinal side, so that the outline light and the side marker lamps are connected along the left longitudinal side via cable sections MK and couplings KUR as shown in FIG. 8 to the connection cable.
  • the cable VK9 can advantageously be laid along a longitudinal member of a vehicle chassis.
  • the lateral distance DY against the left vehicle longitudinal side is advantageously at least 10% of the total vehicle width, z. B. as a distance BY of the side marker lights.
  • Clearance lights and side marker lights are connected as shown in Fig. 8 via acting as cross-coupling couplings KUR in pairs with the longitudinal direction x extending portion of the connecting cable VK9.
  • connection cable VK9 is deflected in the rear area transverse to the direction FR to the right side of the vehicle and the rear lamp assembly, which is shown in the example sketched with transversely to the direction of travel through housing is connected to connecting cables KEL, KER on both side housing ends, with the connecting cable KEL, KER are in turn electrically connected to couplings KU9L, KU9R to the connecting cables VK9 and preferably, as the couplings KU81 and KU82 of Figure 8, have a complete set of wires and in particular of the cable type may be identical to the connecting cable VK9.
  • the multiple wires of the two connecting cables KEL, KER can be closed again within the tail lamp assembly by a multi-conductor conductor arrangement to conductor loops.
  • the lane lights SL are connected in Fig. 9 in Fig. 8 analogous manner. Also in Fig. 9, a separately connected to the control device distributor VF is located.
  • connection cable advantageously flat cable with one or two conductor planes are used.
  • a cable cross-section with non-rotationally symmetrical outer contour which is ensured in a simple manner a unique position in connection arrangements, branches etc. with defined position of the individual wires to contact cutting.
  • z. B. by an off-center thickening, z. B. in conjunction with a guided Masseader with larger wire cross-section, done.
  • a particularly advantageous cable cross-section KT with two conductor planes and trapezoidal outer contour is sketched in FIG.
  • a second conductor level in a second conductor level three cores are embedded in the insulating material IM in a defined position and advantageously the cores of the two planes are offset transversely to their longitudinal direction offset from one another.
  • Contact cutting KS are arranged in connection arrangements, branches, couplings, etc. on both sides of the cable, as indicated in Fig. 10.
  • a lower part UT has attachment structures UB, for example in the manner of a slotted dowel, as components of a base body GU made of dimensionally stable first material.
  • the lower part UT further contains embedded in the base body GU an insert body EU, which cable entries KU1 and KU2 for two cables K1 and K2 forms.
  • the insert body may also be designed in two parts, each having a part body for each of the two cable receptacles. In the cable receptacles KU1 and KU2 protrude contact tips KS of conductive material, preferably of metal.
  • the cable receptacles are adapted to the contour shape of the cables K1, K2, so that the cables eino in a defined position in the cable receptacles.
  • the position of the contact tips KS is matched to this defined insertion position and the predetermined position of the individual wires in the cables K1, K2.
  • the two cables show cores corresponding to two spaced apart planes the sketched in Fig. 10 cable cross-section. Due to the contact tips KS in the cable holders of the lower part some, in the example sketched the three wires of the lower wire level are contacted.
  • the cable connector further includes an upper part OT, which likewise contains a main body GO and an insert body EO that is only hinted at in FIG. 11.
  • the insert body EO preferably forms the cables zu josd an upper limit of the cable receptacles. From the upper part protrude for contacting the four wires of the upper wire level of the two cables K1, K2 four contact tips in the lower insert body EU and upper insert body EO in the assembled state limited cable recordings. Connecting screws VS ensure a secure connection of upper part OT and lower part UT with clamping of the two cables K1, K2 in the cable retainers.
  • the upper part and the lower part are advantageously formed as plastic injection molded bodies with embedded bridge contacts, which have contact tips connected in pairs via conductor bridges.
  • the basic body substantially dimensionally stable consist of a first, harder material and the insert body EU or EO from a second material with respect to the first material lower hardness.
  • the insert bodies may in particular consist of a thermoplastic elastomer, which preferably has a Shore hardness between 70 and 85.
  • the second material contains the insert body EU or EO nor components with adhesion or adhesive effect between the first and second material and the second material and the insulating material of the cable. In this way, a further improvement of the permanent waterproofness of the interfaces between the two materials or the insert body and the cables can be achieved.
  • the base bodies GU are first produced as injection-molded parts, wherein the positioning elements PS shown in FIG. 11 are advantageously produced on their surfaces facing the insert body, which serve for the correct alignment of the conductor bridges LB of the bridge contacts and correspond with counter-structures of the conductor bridges.
  • the bridge contacts are advantageously the same for all connected cable pairs and are positioned differently depending on the wire pair to be contacted in the direction transverse to the cable longitudinal direction.
  • the main body GU or GO are inserted again after insertion of the contact bridges in an injection mold, in which then the insert body EU or EO are molded.
  • support structures for the cable are held securely in the cable receptacles during assembly to the attachment of the tops on the bodies.
  • Such support structures can, for. B. elastically yielding, the cable at the edges of engaging snap hook or the like.
  • Such holding structures may advantageously be formed in the longitudinal direction of the cable receptacles in the insert bodies as constituents of the base body.
  • Fig. 13 a variant of a cable connector is sketched, in which a seven-wire cable K1 outlined in Fig. 10 type and a two-core cable K22 are connected and electrically contacted.
  • the base body of the upper part and lower part in the embodiment of FIG. 13 may be identical to the basic bodies in the connection of two seven-wire cable of FIG. 11 and FIG. 12 and an adaptation to the other cable cross-section of the only two-wire cable K22 may be solely by a other design of the cable holder KU22 in the insert bodies, possibly even alone in the insert body EU72 of the lower part U72 be considered.
  • the two-core cable K22 has a 180 ° rotationally symmetrical outer contour, so that a core interchange would be possible at the connection.
  • rectifier bridges or similar electronic components which exclude or tolerate incorrect polarity can be provided in the consumers connected to the two-core cable.
  • the contact tips can also be made of dimensionally stable plastic and coated with an electrically conductive layer.
  • the electrically conductive layer is a sintered layer that is adhesively bonded in a sintering process to the plastic of the contact tips.
  • the connection between two contact tips of a bridge contact may be formed by an inserted conductor strip, but is preferably also designed as a sintered layer which is uniform with the layer on the contact tips.
  • the conductor material is applied prior to the sintering process as a continuous surface in and between the two cable receptacles and before or after the sintering process by selective Removal, z. B. by means of a laser, structured to form electrically separated bridge contacts.
  • the sintered material can also, for. B. over a screen mask, are applied selectively in structured area distribution.
  • the plastic material of the contact tips is advantageous in this case dimensionally stable and hard.
  • upper part and lower part can each be made in one piece and homogeneous in terms of material as an injection-molded part.
  • FIG. 8 shows, by way of example, an advantageous internal structure of the luminaire arrangement LAL from two carrier boards which follow one another in the longitudinal direction y of the elongate luminaire housing.
  • a first carrier plate TFH contains in a left field FF a plurality of light-emitting diodes LF for the function FL, turn signal left and in a right field FH, used together with different current applied or separately controlled grouped arranged light emitting diodes LH for the functions HL, rear light and BL , Brake light.
  • TR light emitting diode arrays LR are arranged for the function reversing lights, which can be provided for optimal illumination of the area behind the vehicle with beam-forming reflector housings, lenses, etc.
  • a multi-conductor conductor arrangement LA is indicated, via which both modules are controlled and supplied.
  • the conductor arrangement can, for.
  • a flat cable to which the two carrier boards via contact devices with insulation displacement contacts, tip contacts, etc. electrically connected by penetration of the cable insulation are.
  • the multicore conductor arrangement may be a contact rail with a plurality of electrically separated conductor structures in the y-direction, at the conductor structures of the carrier boards by plug, clip, clamp or spring contacts, etc. may be connected.
  • connection of the carrier board via multi-pole contact arrangements connected thereto to the multicore conductor arrangement can advantageously take place in the y-direction at any desired location, so that such a connection type is particularly flexible with regard to assembling a lighting arrangement from different carrier boards. Furthermore, in an easy way, any carrier board can be replaced in case of damage.
  • connection cable KAL and internal conductor arrangement LA each have the full wire set of seven wires for all independent lighting functions of the entire tail lamp arrangement.
  • the contact devices on the carrier boards can contact all wires of the conductor arrangement LA, but only electrically connect the required wires on the board.
  • the use of the full wire set also in light fixtures with reduced functionality has the advantage that the same cable, conductor assemblies and contact devices for function-reduced Luminaire assemblies and luminaire assemblies can be used with full functionality and thus the number of different components can be kept low.
  • connection cables can have more than the wires required for the lighting arrangement and serve to connect further electrical elements, in particular actuators and sensors.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Lighting Device Outwards From Vehicle And Optical Signal (AREA)
  • Details Of Connecting Devices For Male And Female Coupling (AREA)
EP05012714A 2004-07-27 2005-06-14 Arrangement d'illumination pour véhicule utilitaire, especialement pour une remorque, et raccord de câbles pour cela Withdrawn EP1621409A3 (fr)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
DE102004036341A DE102004036341A1 (de) 2004-07-27 2004-07-27 Beleuchtungsanordnung eines Lastfahrzeugs, insbesondere eines Anhängers, sowie Kabelverbinder hierfür

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EP1621409A2 true EP1621409A2 (fr) 2006-02-01
EP1621409A3 EP1621409A3 (fr) 2006-05-17

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EP05012714A Withdrawn EP1621409A3 (fr) 2004-07-27 2005-06-14 Arrangement d'illumination pour véhicule utilitaire, especialement pour une remorque, et raccord de câbles pour cela

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ITMO20130101A1 (it) * 2013-04-18 2014-10-19 Domenico Amabile Metodo e sistema per la gestione indipendente della illuminazione e/o segnalazione di veicoli

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ITMO20130101A1 (it) * 2013-04-18 2014-10-19 Domenico Amabile Metodo e sistema per la gestione indipendente della illuminazione e/o segnalazione di veicoli
WO2014170010A1 (fr) * 2013-04-18 2014-10-23 Amabile Domenico Procédé et système pour la gestion indépendante de l'éclairage et/ou de la signalisation de véhicules
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EP1621409A3 (fr) 2006-05-17

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